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Grid/lib/tensors/Tensor_arith_scalar.h

289 lines
12 KiB
C++

/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/tensors/Tensor_arith_scalar.h
Copyright (C) 2015
Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution directory
*************************************************************************************/
/* END LEGAL */
#ifndef GRID_MATH_ARITH_SCALAR_H
#define GRID_MATH_ARITH_SCALAR_H
namespace Grid {
//////////////////////////////////////////////////////////////////////////////////////////
// Must support native C++ types Integer, Complex, Real
//////////////////////////////////////////////////////////////////////////////////////////
// multiplication by fundamental scalar type
template<class l> strong_inline iScalar<l> operator * (const iScalar<l>& lhs,const typename iScalar<l>::scalar_type rhs)
{
typename iScalar<l>::tensor_reduced srhs; srhs=rhs;
return lhs*srhs;
}
template<class l> strong_inline iScalar<l> operator * (const typename iScalar<l>::scalar_type lhs,const iScalar<l>& rhs) { return rhs*lhs; }
template<class l,int N> strong_inline iVector<l,N> operator * (const iVector<l,N>& lhs,const typename iScalar<l>::scalar_type rhs)
{
typename iVector<l,N>::tensor_reduced srhs; srhs=rhs;
return lhs*srhs;
}
template<class l,int N> strong_inline iVector<l,N> operator * (const typename iScalar<l>::scalar_type lhs,const iVector<l,N>& rhs) { return rhs*lhs; }
template<class l,int N> strong_inline iMatrix<l,N> operator * (const iMatrix<l,N>& lhs,const typename iScalar<l>::scalar_type &rhs)
{
typename iMatrix<l,N>::tensor_reduced srhs; srhs=rhs;
return lhs*srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator * (const typename iScalar<l>::scalar_type & lhs,const iMatrix<l,N>& rhs) { return rhs*lhs; }
////////////////////////////////////////////////////////////////////
// Double support; cast to "scalar_type" through constructor
////////////////////////////////////////////////////////////////////
template<class l> strong_inline iScalar<l> operator * (const iScalar<l>& lhs,double rhs)
{
typename iScalar<l>::scalar_type t; t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs*srhs;
}
template<class l> strong_inline iScalar<l> operator * (double lhs,const iScalar<l>& rhs) { return rhs*lhs; }
template<class l,int N> strong_inline iVector<l,N> operator * (const iVector<l,N>& lhs,double rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs*srhs;
}
template<class l,int N> strong_inline iVector<l,N> operator * (double lhs,const iVector<l,N>& rhs) { return rhs*lhs; }
template<class l,int N> strong_inline iMatrix<l,N> operator * (const iMatrix<l,N>& lhs,double rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs*srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator * (double lhs,const iMatrix<l,N>& rhs) { return rhs*lhs; }
////////////////////////////////////////////////////////////////////
// Complex support; cast to "scalar_type" through constructor
////////////////////////////////////////////////////////////////////
template<class l> strong_inline iScalar<l> operator * (const iScalar<l>& lhs,ComplexD rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs*srhs;
}
template<class l> strong_inline iScalar<l> operator * (ComplexD lhs,const iScalar<l>& rhs) { return rhs*lhs; }
template<class l,int N> strong_inline iVector<l,N> operator * (const iVector<l,N>& lhs,ComplexD rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs*srhs;
}
template<class l,int N> strong_inline iVector<l,N> operator * (ComplexD lhs,const iVector<l,N>& rhs) { return rhs*lhs; }
template<class l,int N> strong_inline iMatrix<l,N> operator * (const iMatrix<l,N>& lhs,ComplexD rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs*srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator * (ComplexD lhs,const iMatrix<l,N>& rhs) { return rhs*lhs; }
////////////////////////////////////////////////////////////////////
// Integer support; cast to "scalar_type" through constructor
////////////////////////////////////////////////////////////////////
template<class l> strong_inline iScalar<l> operator * (const iScalar<l>& lhs,Integer rhs)
{
typename iScalar<l>::scalar_type t; t=rhs;
typename iScalar<l>::tensor_reduced srhs; srhs=t;
return lhs*srhs;
}
template<class l> strong_inline iScalar<l> operator * (Integer lhs,const iScalar<l>& rhs) { return rhs*lhs; }
template<class l,int N> strong_inline iVector<l,N> operator * (const iVector<l,N>& lhs,Integer rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs*srhs;
}
template<class l,int N> strong_inline iVector<l,N> operator * (Integer lhs,const iVector<l,N>& rhs) { return rhs*lhs; }
template<class l,int N> strong_inline iMatrix<l,N> operator * (const iMatrix<l,N>& lhs,Integer rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs*srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator * (Integer lhs,const iMatrix<l,N>& rhs) { return rhs*lhs; }
///////////////////////////////////////////////////////////////////////////////////////////////
// addition by fundamental scalar type applies to matrix(down diag) and scalar
///////////////////////////////////////////////////////////////////////////////////////////////
template<class l> strong_inline iScalar<l> operator + (const iScalar<l>& lhs,const typename iScalar<l>::scalar_type rhs)
{
typename iScalar<l>::tensor_reduced srhs; srhs=rhs;
return lhs+srhs;
}
template<class l> strong_inline iScalar<l> operator + (const typename iScalar<l>::scalar_type lhs,const iScalar<l>& rhs) { return rhs+lhs; }
template<class l,int N> strong_inline iMatrix<l,N> operator + (const iMatrix<l,N>& lhs,const typename iScalar<l>::scalar_type rhs)
{
typename iMatrix<l,N>::tensor_reduced srhs; srhs=rhs;
return lhs+srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator + (const typename iScalar<l>::scalar_type lhs,const iMatrix<l,N>& rhs) { return rhs+lhs; }
////////////////////////////////////////////////////////////////////
// Double support; cast to "scalar_type" through constructor
////////////////////////////////////////////////////////////////////
template<class l> strong_inline iScalar<l> operator + (const iScalar<l>& lhs,double rhs)
{
typename iScalar<l>::scalar_type t; t=rhs;
typename iScalar<l>::tensor_reduced srhs; srhs=t;
return lhs+srhs;
}
template<class l> strong_inline iScalar<l> operator + (double lhs,const iScalar<l>& rhs) { return rhs+lhs; }
template<class l,int N> strong_inline iMatrix<l,N> operator + (const iMatrix<l,N>& lhs,double rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs+srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator + (double lhs,const iMatrix<l,N>& rhs) { return rhs+lhs; }
// Integer support cast to scalar type through constructor
template<class l> strong_inline iScalar<l> operator + (const iScalar<l>& lhs,Integer rhs)
{
typename iScalar<l>::scalar_type t; t=rhs;
typename iScalar<l>::tensor_reduced srhs; srhs=t;
return lhs+srhs;
}
template<class l> strong_inline iScalar<l> operator + (Integer lhs,const iScalar<l>& rhs) { return rhs+lhs; }
template<class l,int N> strong_inline iMatrix<l,N> operator + (const iMatrix<l,N>& lhs,Integer rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs+srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator + (Integer lhs,const iMatrix<l,N>& rhs) { return rhs+lhs; }
///////////////////////////////////////////////////////////////////////////////////////////////
// subtraction of fundamental scalar type applies to matrix(down diag) and scalar
///////////////////////////////////////////////////////////////////////////////////////////////
template<class l> strong_inline iScalar<l> operator - (const iScalar<l>& lhs,const typename iScalar<l>::scalar_type rhs)
{
typename iScalar<l>::tensor_reduced srhs; srhs=rhs;
return lhs-srhs;
}
template<class l> strong_inline iScalar<l> operator - (const typename iScalar<l>::scalar_type lhs,const iScalar<l>& rhs)
{
typename iScalar<l>::tensor_reduced slhs;slhs=lhs;
return slhs-rhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator - (const iMatrix<l,N>& lhs,const typename iScalar<l>::scalar_type rhs)
{
typename iScalar<l>::tensor_reduced srhs; srhs=rhs;
return lhs-srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator - (const typename iScalar<l>::scalar_type lhs,const iMatrix<l,N>& rhs)
{
typename iScalar<l>::tensor_reduced slhs;slhs=lhs;
return slhs-rhs;
}
////////////////////////////////////////////////////////////////////
// Double support; cast to "scalar_type" through constructor
////////////////////////////////////////////////////////////////////
template<class l> strong_inline iScalar<l> operator - (const iScalar<l>& lhs,double rhs)
{
typename iScalar<l>::scalar_type t; t=rhs;
typename iScalar<l>::tensor_reduced srhs; srhs=t;
return lhs-srhs;
}
template<class l> strong_inline iScalar<l> operator - (double lhs,const iScalar<l>& rhs)
{
typename iScalar<l>::scalar_type t(lhs);
typename iScalar<l>::tensor_reduced slhs;slhs=t;
return slhs-rhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator - (const iMatrix<l,N>& lhs,double rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs-srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator - (double lhs,const iMatrix<l,N>& rhs)
{
typename iScalar<l>::scalar_type t(lhs);
typename iScalar<l>::tensor_reduced slhs;slhs=t;
return slhs-rhs;
}
////////////////////////////////////////////////////////////////////
// Integer support; cast to "scalar_type" through constructor
////////////////////////////////////////////////////////////////////
template<class l> strong_inline iScalar<l> operator - (const iScalar<l>& lhs,Integer rhs)
{
typename iScalar<l>::scalar_type t; t=rhs;
typename iScalar<l>::tensor_reduced srhs; srhs=t;
return lhs-srhs;
}
template<class l> strong_inline iScalar<l> operator - (Integer lhs,const iScalar<l>& rhs)
{
typename iScalar<l>::scalar_type t;t=lhs;
typename iScalar<l>::tensor_reduced slhs;slhs=t;
return slhs-rhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator - (const iMatrix<l,N>& lhs,Integer rhs)
{
typename iScalar<l>::scalar_type t;t=rhs;
typename iScalar<l>::tensor_reduced srhs;srhs=t;
return lhs-srhs;
}
template<class l,int N> strong_inline iMatrix<l,N> operator - (Integer lhs,const iMatrix<l,N>& rhs)
{
typename iScalar<l>::scalar_type t;t=lhs;
typename iScalar<l>::tensor_reduced slhs;slhs=t;
return slhs-rhs;
}
}
#endif